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Literature DB >> 33618778

Changing the tune using bioelectronics.

Abstract

The desire to harness electricity for improving human health dates back at least two millennia. As electrical signals form the basis of communication within our nervous system, the ability to monitor, control, and precisely deliver electricity within our bodies holds great promise for treating disease. The nascent field of bioelectronic medicine capitalizes on this approach to improve human health, however, challenges remain in relating electrical nerve activity to physiological function. To overcome these challenges, we need more long-term studies on neural circuits where the nerve activity and physiological output is well-established. In this Letter, I highlight a recent study that takes just such an approach.

Entities: Disease Species

Keywords: Bioelectronic medicine; Nanoclip; Neural interfaces; Peripheral nerves

Year: 2021 PMID： 33618778 PMCID： PMC7901202 DOI： 10.1186/s42234-021-00063-x

Source DB: PubMed Journal: Bioelectron Med ISSN： 2332-8886

11 in total

1. Luigi Galvani and animal electricity: two centuries after the foundation of electrophysiology.

Authors: M Piccolino
Journal: Trends Neurosci Date: 1997-10 Impact factor: 13.837

2. A micro-scale printable nanoclip for electrical stimulation and recording in small nerves.

Authors: Charles A Lissandrello; Winthrop F Gillis; Jun Shen; Ben W Pearre; Flavia Vitale; Matteo Pasquali; Bradley J Holinski; Daniel J Chew; Alice E White; Timothy J Gardner
Journal: J Neural Eng Date: 2017-03-21 Impact factor: 5.379

Review 3. Bioelectronic medicines: a research roadmap.

Authors: Karen Birmingham; Viviana Gradinaru; Polina Anikeeva; Warren M Grill; Victor Pikov; Bryan McLaughlin; Pankaj Pasricha; Douglas Weber; Kip Ludwig; Kristoffer Famm
Journal: Nat Rev Drug Discov Date: 2014-06 Impact factor: 84.694

Review 4. Conformable Hybrid Systems for Implantable Bioelectronic Interfaces.

Authors: Florian Fallegger; Giuseppe Schiavone; Stéphanie P Lacour
Journal: Adv Mater Date: 2019-10-14 Impact factor: 30.849

Review 5. Vagus nerve stimulation therapy in depression and epilepsy: therapeutic parameter settings.

Authors: David M Labiner; Geoffrey L Ahern
Journal: Acta Neurol Scand Date: 2007-01 Impact factor: 3.209

6. Vagus nerve stimulation inhibits cytokine production and attenuates disease severity in rheumatoid arthritis.

Authors: Frieda A Koopman; Sangeeta S Chavan; Sanda Miljko; Simeon Grazio; Sekib Sokolovic; P Richard Schuurman; Ashesh D Mehta; Yaakov A Levine; Michael Faltys; Ralph Zitnik; Kevin J Tracey; Paul P Tak
Journal: Proc Natl Acad Sci U S A Date: 2016-07-05 Impact factor: 11.205

7. Printable microscale interfaces for long-term peripheral nerve mapping and precision control.

Authors: Timothy M Otchy; Christos Michas; Blaire Lee; Krithi Gopalan; Vidisha Nerurkar; Jeremy Gleick; Dawit Semu; Louis Darkwa; Bradley J Holinski; Daniel J Chew; Alice E White; Timothy J Gardner
Journal: Nat Commun Date: 2020-08-21 Impact factor: 17.694

8. A wireless closed-loop system for optogenetic peripheral neuromodulation.

Authors: Aaron D Mickle; Sang Min Won; Kyung Nim Noh; Jangyeol Yoon; Kathleen W Meacham; Yeguang Xue; Lisa A McIlvried; Bryan A Copits; Vijay K Samineni; Kaitlyn E Crawford; Do Hoon Kim; Paulome Srivastava; Bong Hoon Kim; Seunghwan Min; Young Shiuan; Yeojeong Yun; Maria A Payne; Jianpeng Zhang; Hokyung Jang; Yuhang Li; H Henry Lai; Yonggang Huang; Sung-Il Park; Robert W Gereau; John A Rogers
Journal: Nature Date: 2019-01-02 Impact factor: 49.962

Review 2. Closed-Loop Vagus Nerve Stimulation for the Treatment of Cardiovascular Diseases: State of the Art and Future Directions.

Authors: Matteo Maria Ottaviani; Fabio Vallone; Silvestro Micera; Fabio A Recchia
Journal: Front Cardiovasc Med Date: 2022-04-07

2 in total